scholarly journals Effects of Hydrolysable Tannin with or without Condensed Tannin on Alfalfa Silage Fermentation Characteristics and In Vitro Ruminal Methane Production, Fermentation Patterns, and Microbiota

Animals ◽  
2021 ◽  
Vol 11 (7) ◽  
pp. 1967
Author(s):  
Lei Chen ◽  
Xueyan Bao ◽  
Gang Guo ◽  
Wenjie Huo ◽  
Qingfang Xu ◽  
...  
Keyword(s):  
Condensed Tannin ◽  
Ammonia Nitrogen ◽  
Ruminal Fermentation ◽  
Hydrolysable Tannin ◽  
Butyrivibrio Fibrisolvens ◽  
Ch4 Production ◽  
Silage Fermentation ◽  
Alfalfa Silage ◽  
The Individual

This study was conducted to evaluate the potential of hydrolysable tannin (chestnut tannin, CHT) without or with condensed tannin (quebracho tannin, QT) for modulating alfalfa silage fermentation characteristics and in vitro ruminal methane (CH4) production, fermentation profile, and microbiota. Alfalfa (235 g/kg fresh weight) was ensiled with no tannins (control), 2% CHT (CHT2), 5% CHT (CHT5), the combination of CHT and QT at 1% each (CHQ2), and CHT and QT at 2.5% each (CHQ5) of forage dry matter (DM). The CHQ2 treatment was more effective in reducing DM losses, pH, and ammonia–nitrogen to total nitrogen ratios of alfalfa silage than CHT2 and CHT5 treatments. All tannin treatments decreased ruminal CH4 production, and the magnitude of the decrease was greater for the combinations than the individual ones. Total volatile fatty acid (VFA) concentrations and DM degradation decreased by tannin treatments, but microbial protein (MCP) synthesis increased. The total VFA concentrations and DM degradation were lower with CHQ2 treatment than with CHT5 and CHQ5 treatments, but the MCP concentrations were comparable among these treatments. Tannin inclusion decreased the abundance of the anaerobic fungi Ruminococcus albus and Ruminococcus flavefaciens, but enhanced Fibrobacter succinogenes. The combination of CHT and QT alleviated the inhibition of CHT supply alone in Butyrivibrio fibrisolvens, Ruminobacer amylophilus, and Prevotella ruminicola as well as protease. The results revealed that a combination of HT from CHT and CT from QT at a low level can reduce proteolysis and CH4 production of alfalfa silage without impairing ruminal fermentation and microbiota.

scholarly journals 44 Effect of Quebracho (Schinopsis balansae) extract inclusion in a high roughage diet upon in vitro gas production

2020 ◽  
Vol 98 (Supplement_2) ◽  
pp. 53-54
Author(s):  
Luiz Fernando Dias Batista ◽  
Madeline E Rivera ◽  
Aaron B Norris ◽  
Jordan Adams ◽  
Roberta Cracco ◽  
...  
Keyword(s):  
Condensed Tannin ◽  
Basal Diet ◽  
Gas Production ◽  
Random Coefficients ◽  
Feed Additives ◽  
Ruminal Fermentation ◽  
Ch4 Production ◽  
In Vitro Gas Production ◽  
Schinopsis Balansae

Abstract The utilization of natural plant secondary compounds as feed additives in animal nutrition has been extensively studied because of their ability to modify digestive and metabolic functions. Condensed tannin (CT) supplementation can potentially alter ruminal fermentation, and mitigate methane (CH4) emissions. The objective of this study was to determine the effect of quebracho CT extract (QT; Schinopsis balansae) within a roughage-based diet on overall fermentability and CH4 production utilizing the in vitro gas production technique (IVGP). Twenty rumen cannulated steers (227 ± 19 kg) were randomly assigned to four dietary treatments (n=4): QT at 0, 1, 2, and 3% of DM (QT0, QT1, QT2, and QT3). A roughage-based diet containing 88% bermudagrass hay and 12% concentrate was fed daily at 2.1% of shrunk body weight. The animals were adapted to the basal diet for 24-d then introduced to predetermined treatments for 35d. Rumen inoculum was collected weekly from each steer to perform the incubations. Two hundred milligrams of air-dried base diet were incubated for 48-h with a composite rumen inoculum for each treatment over 5 wk. Kinetic analysis of cumulative 48h gas production was performed using Gasfit. Measurements of CH4 were performed via gas chromatography and digested residue was determined post-incubation. Data were analyzed using a random coefficients model. Total gas production was higher for QT0 compared to QT1 and QT3 (P = 0.001), but not different from QT2 (P = 0.554). The fractional rate of gas production was higher for QT2 compared to QT0 (P = 0.011). First and second pool gas production decreased linearly as QT inclusion increased (P = 0.042 and 0.010, respectively). There was no dietary effect in ivNDFD (P = 0.567). However, there was a linear tendency to decrease CH4 production with the addition of QT (P=0.071) likely due to changes in the microbial population.

scholarly journals 4. Characteristics Of Some Potential Forages In Indonesia In Reducing Methane (Ch4) Emission From Ruminants: Benefits And Limitations

2016 ◽  
Vol 1 (1) ◽  
pp. 27-37
Author(s):  
Amriana Hifizah
Keyword(s):  
Condensed Tannin ◽  
Rumen Fermentation ◽  
Pennisetum Purpureum ◽  
Panicum Maximum ◽  
Ruminal Fermentation ◽  
Cassava Leaves ◽  
Ch4 Production ◽  
Ipomea Batatas ◽  
Setaria Sphacelata

Animal production can be more efficient and also sustainable if we reduce CH4 production from ruminal fermentation. One option is to find alternative forages that modify rumen fermentation. CH4 is not only harmful the environment but also means loss to the animals. All of the aspects of the issue is related to the condition of ruminant’s farm in Indonesia. Some other forages that are mainly fed as protein source to ruminants, are: cassava leaves, sweet potato leaves, soya bean leaves, tofu waste, leaves of Artocarpus heterophyllus, Musa paradisiaca L, Ipomea batatas. Roughage sources are hays of Panicum maximum, Pennisetum purpureum, and Setaria sphacelata and the concentrate sources mainly corn, rice bran and cassava waste, and corn cobs. However, there are very limited studies in finding alternative forages that can both increase animals productivity and also reduce CH4 production. Only forages relevant to Indonesia that have been studied in vitro is reviewed in this article, about its potential in reducing CH4 production from rumen fermentation. Even though some forages reduce CH4, it could negatively influence digestibility, hence less productivity. Some studies indicated that it was due to the fat content of the forage while others indicated that the concentration of the bioactive compounds such as condensed tannin influence the side effect of low CH4 ruminal production.

scholarly journals The Influence of Extended Supplementation of Quebracho Extract to Beef Steers Consuming a Hay Diet on Digestion, Ruminal, and Blood Parameters

2021 ◽  
Author(s):  
Luiz F D. Batista ◽  
Madeline E Rivera ◽  
Aaron B Norris ◽  
James P Muir ◽  
Mozart A Fonseca ◽  
...  
Keyword(s):  
Condensed Tannin ◽  
Secondary Compounds ◽  
Blood Parameters ◽  
Gas Production ◽  
Ruminal Fermentation ◽  
Linear Fashion ◽  
Ch4 Production ◽  
Dietary Treatments

Abstract The addition of natural plant secondary compounds to ruminant feed has been extensively studied because of their ability to modify digestive and metabolic functions, resulting in a potential reduction in greenhouse gas emissions, among other benefits. Condensed tannin (CT) supplementation may alter ruminal fermentation and mitigate methane (CH4) emissions. This study’s objective was to determine the effect of quebracho CT extract (QT; Schinopsis quebracho-colorado (Schltdl.) F.A. Barkley & T. Meyer) within a roughage-based diet on ruminal digestibility and kinetic parameters by using the in situ and in vitro gas production techniques, in addition to blood urea N (BUN) and ruminal (VFA, NH3-N, and protozoa count) parameters. Twenty rumen-cannulated steers were randomly assigned to four dietary treatments: QT at 0, 1, 2, and 3% of DM (QT0: 0% CT; QT1: 0.70% CT; QT2: 1.41% CT; and QT3: 2.13% CT). The in situ DMD increased linearly (P = 0.048) as QT inclusion increased, whereas in situ NDFD was not altered among treatments (P = 0.980). Neither total VFA concentration nor acetate-to-propionate ratio differed among dietary treatments (P = 0.470 and P = 0.873, respectively). However, QT3 had lower isovalerate and isobutyrate concentrations compared to QT0 (P ≤ 0.025). Ruminal NH3 and BUN tended to decline (P ≤ 0.075) in a linear fashion as QT inclusion increased, suggesting decreased deamination of feed protein. Ruminal protozoa count was reduced in quadratic fashion (P = 0.005) as QT inclusion increased, where QT1 and QT2 were lower compared to QT0 and QT3. Urinary N excretion tended to reduce in a linear fashion (P = 0.080) as QT increased. There was a TRT × day interaction for in vitro total gas production and fractional rate of gas production (P = 0.013 and P = 0.007, respectively), and in vitro NDFD tended to be greater for QT treatments compared to no QT inclusion (P = 0.077). There was a TRT × day interaction (P = 0.001) on CH4 production, with QT3 having less CH4 production relative to QT0 on d 0 and QT2 on d 7 and 28. Feeding QT up to 3% of the dietary DM in a roughage-based diet did not sacrifice overall DM digestibility and ruminal parameters over time. Still, it is unclear why QT2 did not follow the same pattern as in vitro gas parameters. Detailed evaluations of amino acid degradation might be required to fully define CT influences on ruminal fermentation parameters and CH4 production.

PSXIV-6 País grape marc (Vitis vinifera, País) inclusion in concentrate diets reduces ammonia nitrogen but not methane production in an in vitro batch culture

2021 ◽  
Vol 99 (Supplement_3) ◽  
pp. 469-470
Author(s):  
Sandra Suescun-Ospina ◽  
Nelson Vera ◽  
Rita Astudillo ◽  
Jorge Avila-Stagno
Keyword(s):  
Vitis Vinifera ◽  
Dry Matter ◽  
Substantial Reduction ◽  
Ammonia Nitrogen ◽  
Corn Silage ◽  
Wine Industry ◽  
Fermentation Efficiency ◽  
Grape Marc ◽  
Ch4 Production

Abstract País Grape (Vitis vinifera L.) is an ancestral variety used in Chilean wine industry. It has a higher content of proanthocyanidins than commercial varieties such as Carmenère or Pinot Noir, resulting in País grape marc (PGM) with high contents of condensed tannins. As such, PGM inclusion in ruminant diets would have the potential to reduce enteric methane (CH4) emissions and decrease urinary N excretion. The objective of this study was to evaluate the effects of substitution of mixed hay (MH) with PGM in a high concentrate diet [65% dry matter (DM)] on in vitro dry matter disappearance (IVDMD), ruminal fermentation parameters, gas and CH4 production. Treatments were: T1 (Control) = 20% MH, 15% corn silage, 65% concentrate; T2 = 10% MH, 10% PGM, 15% corn silage, 65% concentrate; T3 = 20% PGM, 15% corn silage, 65% concentrate. The study was a randomized complete design with 3 treatment and 3 replicates, incubated for 24 h at 39º C. Data were compared by Tukey test and polynomial contrasts. There was a linear reduction in NH3-N (P = 0.001) as dietary PGM increased. Inclusion of PGM reduced NH3-N by 50% when added at 10% DM, and 71.7% at 20% DM. However, there also was 4% reduction in IVDMD (P ≤ 0.001) and gas production (P = 0.012) in the 20% GM diet. There were no treatment effects (P ≥ 0.05) on CH4 production or yield. Fermentation efficiency determined by the partition factor increased linearly (P = 0.013) as PGM inclusion increased, suggesting that it increases organic matter to be degraded. Based on this study it could be concluded that PGM is an alternative source of fiber for ruminants on concentrate diets, as it can result in improved rumen fermentation efficiency and a substantial reduction in ruminal ammonia nitrogen concentration (NH3-N).

scholarly journals Pomegranate seed oil rich in conjugated linolenic acids reduces in vitro methane production

1970 ◽  
Vol 46 (3) ◽  
pp. 325-335
Author(s):  
E. Maleki ◽  
G.Y. Meng ◽  
M. Faseleh Jahromi ◽  
R. Jorfi ◽  
A. Khoddami ◽  
...  
Keyword(s):  
Methane Production ◽  
Volatile Fatty Acids ◽  
Seed Oil ◽  
Control Diet ◽  
Nutrient Utilization ◽  
Gas Production ◽  
Metabolizable Energy ◽  
Ruminal Fermentation ◽  
Ch4 Production

The objective of this study was to determine the effect of pomegranate (Punica granatum L.) seed oil (PSO) on gas and methane (CH4) production, ruminal fermentation and microbial populations under in vitro conditions. Three treatments consisting of a control diet containing 10 mg tallow (CON); the control diet with 5 mg PSO + 5 mg tallow (MPSO) and the control diet containing 10 mg PSO (HPSO) were compared. Ten mg of the experimental fat/oil samples were inserted into a gas-tight 100 mL plastic syringe containing 30 mL of an incubation inoculum and 250 mg of a basic substrate of a hay/concentrate (1/1, w/w) mixture. In vitro gas production was recorded over 0, 2, 4, 6, 8, 10, 12 and 24 h of incubation. After 24 hours, incubation was stopped, and methane production, pH, volatile fatty acids (VFAs) and microbial counts were measured in the inoculant. Gas production at 4, 6, 8, 10, 12 and 24 h incubation, metabolizable energy and in vitro organic matter disappearance increased linearly and quadratically as level of PSO increased. Furthermore, the 10 mg PSO (HPSO) decreased CH4 production by 21.0% compared with the control (CON) group. There were no significant differences in total and individual VFA concentrations between different levels of PSO, except for butyric acid. After 24 h of incubation, methanogenesis decreased in the HPSO compared with the MPSO and CON treatments. In addition, total bacteria and protozoa counts increased with rising PSO levels, while population methanogenesis declined significantly. These results suggested that PSO could reduce methane emissions, which might be beneficial to nutrient utilization and growth in ruminants.

scholarly journals Using glycerin with chitosan extracted from shrimp residue to enhance rumen fermentation and feed use in native Thai bulls

2021 ◽  
pp. 1158-1164
Author(s):  
Anuthida Seankamsorn ◽  
Anusorn Cherdthong ◽  
Sarong So ◽  
Metha Wanapat
Keyword(s):  
Volatile Fatty Acids ◽  
Latin Square ◽  
Ammonia Nitrogen ◽  
Rumen Fermentation ◽  
Nutrient Digestibility ◽  
Crude Glycerin ◽  
Ruminal Fermentation ◽  
Design Factor ◽  
Ch4 Production ◽  
High Level

Background and Aim: Crude glycerin is changed to propionate in the rumen, while chitosan can be used as a feed supplement to increase propionic acid concentration and decrease methane (CH4) production. We hypothesized that supplementation with a combination of a high level of crude glycerin with chitosan could have a beneficial effect on ruminal fermentation and mitigate CH4 production. This study aimed to explore the combined effects of crude glycerin and chitosan supplementation on nutrient digestibility, rumen fermentation, and CH4 calculation in native Thai bulls. Materials and Methods: Four 2-year-old native Thai bulls, weighing 150±20 kg, were kept in a 2×2 factorial arrangement in a 4×4 Latin square design. Factor A represented the incorporation of crude glycerin at 10.5% and 21% of the dry matter (DM) of a total mixed ration (TMR), and factor B represented the supplementation of chitosan at 1% and 2% DM of a TMR. Results: Increasing levels of crude glycerin at 21% decreased DM intake by 0.62 kg/day compared with 10.5% crude glycerin (p<0.05), whereas nutrient digestibility did not change (p>0.05). The incorporated crude glycerin and supplemented chitosan levels did not affect the pH, temperature, concentrations of ammonia-nitrogen, microbial population, and blood urea nitrogen (p>0.05). Supplemented chitosan and incorporated crude glycerin did not show any interaction effects on the molar portions and total volatile fatty acids (VFAs), except estimated CH4. Increasing the incorporated crude glycerin levels increased propionate and decreased the ratio of acetate to propionate ratio, whereas levels of butyrate, acetate, and total VFAs were unchanged. The combination of crude glycerin at 21% in the TMR with chitosan at 2% reduced CH4 estimation by 5.08% compared with the other feed treatment. Conclusion: Increasing incorporated crude glycerin levels in a TMR significantly elevated the propionate concentration, whereas combining 21% crude glycerin in the TMR diet with 2% chitosan supplementation could depress CH4 estimation more effectively than adding one of these supplements alone.

The effects of essential oil and condensed tannin on fermentation and methane production under in vitro conditions

2016 ◽  
Vol 56 (10) ◽  
pp. 1707 ◽  
Author(s):  
Brittany Pinski ◽  
Mevlüt Günal ◽  
Amer A. AbuGhazaleh
Keyword(s):  
Fatty Acid ◽  
Methane Production ◽  
Volatile Fatty Acid ◽  
Condensed Tannin ◽  
Total Volatile ◽  
Tannin Extract ◽  
Ch4 Production ◽  
N Concentration ◽  
Total Volatile Fatty Acid

The potential of five different essential oils (EO) and quebracho condensed tannin extract (QCT) as antimethanogenic additives in ruminant feeds were investigated. The first experiment was conducted to screen the effects rosemary oil, sage oil, cinnamon oil (CNO), eucalyptus oil and myrrh oil at 500 mg/L of culture fluid on methane (CH4) production under in vitro conditions. Rumen contents were collected from a cannulated Holstein dairy cow and used for a 24-h batch-culture experiment. Treatments were a control (CON) or CON plus EO at 500 mg/L. Results showed that CNO decreased CH4 production and, therefore, was selected for Experiment 2. The second experiment was designed to test the effects of CNO at three different dose levels on CH4 production and fermentation in 24-h batch-culture experiments. Treatments were CON or CON plus CNO supplemented at 125, 250 and 500 mg/L. Relative to CON, CNO decreased total gas production at the 250 and 500 mg/L doses. All doses of CNO decreased CH4 production. Total volatile fatty acid production was lower in cultures incubated with CNO at the 500 mg/L. Ammonia-N concentration decreased in cultures incubated with CNO at the 500 mg/L. The third experiment was designed to test the effects of QCT on CH4 production and fermentation in 24-h batch cultures. Treatments were CON or CON plus QCT at 25, 50 and 75 g/kg of diet DM. Relative to CON, total volatile fatty acid concentration increased with the 50 g/kg QCT, but was similar to the 25 and 75 g/kg QCT. The proportions of acetate decreased, while the proportions of propionate increased with the 25 g/kg QCT compared with CON. Methane production was not affected in cultures incubated with QCT. Relative to CON, all doses of QCT decreased ammonia-N concentration. In conclusion, results from the present study showed that except for CNO, EO tested in the study had no effects on rumen CH4 production. Addition of CNO to rumen cultures at 125 and 250 mg/L reduced CH4 production without negative effects on rumen fermentation. Quebracho condensed tannin-extract supplementation had no effects on CH4 production and fermentation parameters except for ammonia-N concentration.

scholarly journals Inhibition of α-Amylases by Condensed and Hydrolysable Tannins: Focus on Kinetics and Hypoglycemic Actions

2017 ◽  
Vol 2017 ◽  
pp. 1-12 ◽  
Author(s):  
Camila Gabriel Kato ◽  
Geferson de Almeida Gonçalves ◽  
Rosely Aparecida Peralta ◽  
Flavio Augusto Vicente Seixas ◽  
Anacharis Babeto de Sá-Nakanishi ◽  
...  
Keyword(s):  
Condensed Tannin ◽  
Free Enzyme ◽  
Inhibitory Effects ◽  
Acacia Mearnsii ◽  
Hydrolysable Tannin ◽  
Mixed Inhibition ◽  
Hydrolysable Tannins ◽  
Kinetics Of

The aim of the present study was to compare the in vitro inhibitory effects on the salivary and pancreatic α-amylases and the in vivo hypoglycemic actions of the hydrolysable tannin from Chinese natural gall and the condensed tannin from Acacia mearnsii. The human salivary α-amylase was more strongly inhibited by the hydrolysable than by the condensed tannin, with the concentrations for 50% inhibition (IC50) being 47.0 and 285.4 μM, respectively. The inhibitory capacities of both tannins on the pancreatic α-amylase were also different, with IC50 values being 141.1 μM for the hydrolysable tannin and 248.1 μM for the condensed tannin. The kinetics of the inhibition presented complex patterns in that for both inhibitors more than one molecule can bind simultaneously to either the free enzyme of the substrate-complexed enzyme (parabolic mixed inhibition). Both tannins were able to inhibit the intestinal starch absorption. Inhibition by the hydrolysable tannin was concentration-dependent, with 53% inhibition at the dose of 58.8 μmol/kg and 88% inhibition at the dose of 294 μmol/kg. For the condensed tannin, inhibition was not substantially different for doses between 124.4 μmol/kg (49%) and 620 μmol/kg (57%). It can be concluded that both tannins, but especially the hydrolysable one, could be useful in controlling the postprandial glycemic levels in diabetes.

scholarly journals PYTHOCHEMICAL SCREENING OF Musa acuminata STEM WATER EXTRACT

2020 ◽  
Vol 5 (1) ◽  
pp. 77
Author(s):  
Amy Nindia Carabelly ◽  
Didit Aspriyanto
Keyword(s):  
Growth Factor ◽  
Culture Media ◽  
Condensed Tannin ◽  
Water Extract ◽  
Hydrolysable Tannin ◽  
Cell Culture Media ◽  
Water Solvent ◽  
Stem Water ◽  
Banana Stem

Background: Regenerative therapy has been progressing into the utilization of mesenchymal stem cell (MSC). Nevertheless, the limited number of MSC has put growth factor as an essential supplement for cell culture media yet relatively unaffordable because highly priced. Alternative compound which cost reasonably is required. Exogenous phytochemical material in herbal plant extract may increase the number of MSC, one of which is mauli banana stem. Purpose: To analyze secondary metabolites identified in mauli banana stem water extract. Method: Mauli banana stem was macerated using water solvent to be analyzed qualitatively for alkaloid, tannin, flavonoid, saponin, terpenoid, diterpen and steroid. Screening was followed by quantitative analysis to determine the total of alkaloid, flavonoid, condensed tannin and hydrolysable tannin. Result: Secondary metabolite compounds of mauli banana stem water extract were alkaloid (4.15%), hydrolysable tannin (1.055%), condensed tannin (0.42%) and flavonoid (0.31%). Conclusion: Mauli banana stem water extract has potential as alternative growth factor to increase the number of MSC in vitro.

scholarly journals Increasing Buffering Capacity Alters Rumen Microbiota Composition and Enhances Rumen Fermentation Characteristics of High-Concentrate Fed Hanwoo Steers

2021 ◽  
Author(s):  
Sonny Ramos ◽  
Seon Ho Kim ◽  
Chang Dae Jeong ◽  
Lovelia L. Mamuad ◽  
A-rang Son ◽  
...  
Keyword(s):  
Bacterial Community ◽  
Volatile Fatty Acids ◽  
Ammonia Nitrogen ◽  
Rumen Fermentation ◽  
Buffering Capacity ◽  
Ruminal Fermentation ◽  
Drastic Decrease ◽  
Degrading Bacteria

Abstract Background: Rumen bacterial community is mainly affected by the type of diet consumed by the host animals. High concentrate diet increases the abundance of lactic acid producers and utilizers due to high level of non-structural carbohydrates thus reducing the number of fiber-degrading bacteria because of drastic decrease in pH. Dietary buffers are essential in regulating rumen pH through the compounds responsible in resisting drastic decrease in pH once cattle were fed with high-concentrate diet. However, no study has evaluated the effects of buffering capacity and efficiency in alleviating chronic acidosis in rumen. Ruminal metataxonomic and fermentation characteristics analyses were conducted to evaluate the effect of different buffering capacities on in vitro and in vivo experiments in high-concentrate fed Hanwoo steers. Results: Results revealed that BC0.9% and BC0.5% had similar and significant effect (P < 0.05) on in vitro ruminal fermentation at 3 to 24 h incubation. Both BC0.9% and BC0.5% had significantly highest (P < 0.05) buffering capacity, pH, and ammonia-nitrogen (NH3-N) than BC0.3% and CON at 24 h of incubation. Individual and total volatile fatty acids (VFA) were significantly lowest in CON. Increasing buffering capacity concentration showed linear effect on pH at 6 to 24 h while total gas and NH3-N at 3 and 12 h. Phylum Bacteroidetes dominated all treatments but a higher abundance of Firmicutes in BC0.5% than others. Ruminoccocus bromii and Succiniclasticum ruminis were dominant in BC0.5% and Bacteroides massiliensis in BC0.3%. The normalized data of relative abundance of observed OTUs’ representative families have grouped the CON with BC0.3% in the same cluster, whereas BC0.5% and BC0.9% were clustered separately which indicates the effect of varying buffering capacity of buffer agents. Principal coordinate analysis (PCoA) on unweighted UniFrac distances revealed close similarity of bacterial community structures within and between treatments and control, in which BC0.9% and BC0.3% groups showed dispersed community distribution. Conclusion: Our findings showed that increasing buffering capacity enhances rumen fermentation parameters and affects rumen microbiome by altering bacterial community through distinct structure between high and low buffering capacity, thus an important factor contributed to the prevention of ruminal acidosis during a high-concentrate diet.

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